def writeConfigDB(self, jDiff):
'''
Write the diff in Config DB.
Parameters:
jDiff (dict): config to push in config DB.
Returns:
void
'''
self.sysLog(doPrint=True, msg='Writing in Config DB')
data = dict()
configdb = ConfigDBConnector()
configdb.connect(False)
deep_update(data, FormatConverter.to_deserialized(jDiff))
self.sysLog(msg="Write in DB: {}".format(data))
configdb.mod_config(FormatConverter.output_to_db(data))
return
class AclLoader(object):
ACL_TABLE = "ACL_TABLE"
ACL_RULE = "ACL_RULE"
ACL_TABLE_TYPE_MIRROR = "MIRROR"
ACL_TABLE_TYPE_CTRLPLANE = "CTRLPLANE"
CFG_MIRROR_SESSION_TABLE = "MIRROR_SESSION"
STATE_MIRROR_SESSION_TABLE = "MIRROR_SESSION_TABLE"
POLICER = "POLICER"
SESSION_PREFIX = "everflow"
SWITCH_CAPABILITY_TABLE = "SWITCH_CAPABILITY"
ACL_ACTIONS_CAPABILITY_FIELD = "ACL_ACTIONS"
ACL_ACTION_CAPABILITY_FIELD = "ACL_ACTION"
min_priority = 1
max_priority = 10000
ethertype_map = {
"ETHERTYPE_LLDP": 0x88CC,
"ETHERTYPE_VLAN": 0x8100,
"ETHERTYPE_ROCE": 0x8915,
"ETHERTYPE_ARP": 0x0806,
"ETHERTYPE_IPV4": 0x0800,
"ETHERTYPE_IPV6": 0x86DD,
"ETHERTYPE_MPLS": 0x8847
}
ip_protocol_map = {
"IP_TCP": 6,
"IP_ICMP": 1,
"IP_UDP": 17,
"IP_IGMP": 2,
"IP_PIM": 103,
"IP_RSVP": 46,
"IP_GRE": 47,
"IP_AUTH": 51,
"IP_ICMPV6": 58,
"IP_L2TP": 115
}
def __init__(self):
self.yang_acl = None
self.requested_session = None
self.mirror_stage = None
self.current_table = None
self.tables_db_info = {}
self.rules_db_info = {}
self.rules_info = {}
if multi_asic.is_multi_asic():
# Load global db config
SonicDBConfig.load_sonic_global_db_config()
else:
SonicDBConfig.initialize()
self.sessions_db_info = {}
self.configdb = ConfigDBConnector()
self.configdb.connect()
self.statedb = SonicV2Connector(host="127.0.0.1")
self.statedb.connect(self.statedb.STATE_DB)
# For multi-npu architecture we will have both global and per front asic namespace.
# Global namespace will be used for Control plane ACL which are via IPTables.
# Per ASIC namespace will be used for Data and Everflow ACL's.
# Global Configdb will have all ACL information for both Ctrl and Data/Evereflow ACL's
# and will be used as souurce of truth for ACL modification to config DB which will be done to both Global DB and
# front asic namespace
self.per_npu_configdb = {}
# State DB are used for to get mirror Session monitor port.
# For multi-npu platforms each asic namespace can have different monitor port
# dependinding on which route to session destination ip. So for multi-npu
# platforms we get state db for all front asic namespace in addition to
self.per_npu_statedb = {}
# Getting all front asic namespace and correspding config and state DB connector
namespaces = device_info.get_all_namespaces()
for front_asic_namespaces in namespaces['front_ns']:
self.per_npu_configdb[front_asic_namespaces] = ConfigDBConnector(
use_unix_socket_path=True, namespace=front_asic_namespaces)
self.per_npu_configdb[front_asic_namespaces].connect()
self.per_npu_statedb[front_asic_namespaces] = SonicV2Connector(
use_unix_socket_path=True, namespace=front_asic_namespaces)
self.per_npu_statedb[front_asic_namespaces].connect(
self.per_npu_statedb[front_asic_namespaces].STATE_DB)
self.read_tables_info()
self.read_rules_info()
self.read_sessions_info()
self.read_policers_info()
def read_tables_info(self):
"""
Read ACL_TABLE table from configuration database
:return:
"""
self.tables_db_info = self.configdb.get_table(self.ACL_TABLE)
def get_tables_db_info(self):
return self.tables_db_info
def read_rules_info(self):
"""
Read ACL_RULE table from configuration database
:return:
"""
self.rules_db_info = self.configdb.get_table(self.ACL_RULE)
def get_rules_db_info(self):
return self.rules_db_info
def read_policers_info(self):
"""
Read POLICER table from configuration database
:return:
"""
# For multi-npu platforms we will read from any one of front asic namespace
# config db as the information should be same across all config db
if self.per_npu_configdb:
namespace_configdb = list(self.per_npu_configdb.values())[0]
self.policers_db_info = namespace_configdb.get_table(self.POLICER)
else:
self.policers_db_info = self.configdb.get_table(self.POLICER)
def get_policers_db_info(self):
return self.policers_db_info
def read_sessions_info(self):
"""
Read MIRROR_SESSION table from configuration database
:return:
"""
# For multi-npu platforms we will read from any one of front asic namespace
# config db as the information should be same across all config db
if self.per_npu_configdb:
namespace_configdb = list(self.per_npu_configdb.values())[0]
self.sessions_db_info = namespace_configdb.get_table(
self.CFG_MIRROR_SESSION_TABLE)
else:
self.sessions_db_info = self.configdb.get_table(
self.CFG_MIRROR_SESSION_TABLE)
for key in self.sessions_db_info:
if self.per_npu_statedb:
# For multi-npu platforms we will read from all front asic name space
# statedb as the monitor port will be differnt for each asic
# and it's status also might be different (ideally should not happen)
# We will store them as dict of 'asic' : value
self.sessions_db_info[key]["status"] = {}
self.sessions_db_info[key]["monitor_port"] = {}
for namespace_key, namespace_statedb in self.per_npu_statedb.items(
):
state_db_info = namespace_statedb.get_all(
self.statedb.STATE_DB,
"{}|{}".format(self.STATE_MIRROR_SESSION_TABLE, key))
self.sessions_db_info[key]["status"][
namespace_key] = state_db_info.get(
"status", "inactive") if state_db_info else "error"
self.sessions_db_info[key][
"monitor_port"][namespace_key] = state_db_info.get(
"monitor_port", "") if state_db_info else ""
else:
state_db_info = self.statedb.get_all(
self.statedb.STATE_DB,
"{}|{}".format(self.STATE_MIRROR_SESSION_TABLE, key))
self.sessions_db_info[key]["status"] = state_db_info.get(
"status", "inactive") if state_db_info else "error"
self.sessions_db_info[key]["monitor_port"] = state_db_info.get(
"monitor_port", "") if state_db_info else ""
def get_sessions_db_info(self):
return self.sessions_db_info
def get_session_name(self):
"""
Get requested mirror session name or default session
:return: Mirror session name
"""
if self.requested_session:
return self.requested_session
for key in self.get_sessions_db_info():
if key.startswith(self.SESSION_PREFIX):
return key
return None
def set_table_name(self, table_name):
"""
Set table name to restrict the table to be modified
:param table_name: Table name
:return:
"""
if not self.is_table_valid(table_name):
warning("Table \"%s\" not found" % table_name)
self.current_table = table_name
def set_session_name(self, session_name):
"""
Set session name to be used in ACL rule action
:param session_name: Mirror session name
:return:
"""
if session_name not in self.get_sessions_db_info():
raise AclLoaderException("Session %s does not exist" %
session_name)
self.requested_session = session_name
def set_mirror_stage(self, stage):
"""
Set mirror stage to be used in ACL mirror rule action
:param session_name: stage 'ingress'/'egress'
:return:
"""
self.mirror_stage = stage.upper()
def set_max_priority(self, priority):
"""
Set rules max priority
:param priority: Rules max priority
:return:
"""
self.max_priority = int(priority)
def is_table_valid(self, tname):
return self.tables_db_info.get(tname)
def is_table_mirror(self, tname):
"""
Check if ACL table type is ACL_TABLE_TYPE_MIRROR or ACL_TABLE_TYPE_MIRRORV6
:param tname: ACL table name
:return: True if table type is MIRROR or MIRRORV6 else False
"""
return self.tables_db_info[tname]['type'].upper().startswith(
self.ACL_TABLE_TYPE_MIRROR)
def is_table_ipv6(self, tname):
"""
Check if ACL table type is IPv6 (L3V6 or MIRRORV6)
:param tname: ACL table name
:return: True if table type is IPv6 else False
"""
return self.tables_db_info[tname]["type"].upper() in ("L3V6",
"MIRRORV6")
def is_table_control_plane(self, tname):
"""
Check if ACL table type is ACL_TABLE_TYPE_CTRLPLANE
:param tname: ACL table name
:return: True if table type is ACL_TABLE_TYPE_CTRLPLANE else False
"""
return self.tables_db_info[tname]['type'].upper(
) == self.ACL_TABLE_TYPE_CTRLPLANE
@staticmethod
def parse_acl_json(filename):
yang_acl = pybindJSON.load(filename, openconfig_acl, "openconfig_acl")
# Check pybindJSON parsing
# pybindJSON.load will silently return an empty json object if input invalid
with open(filename, 'r') as f:
plain_json = json.load(f)
if len(plain_json['acl']['acl-sets']['acl-set']) != len(
yang_acl.acl.acl_sets.acl_set):
raise AclLoaderException("Invalid input file %s" % filename)
return yang_acl
def load_rules_from_file(self, filename):
"""
Load file with ACL rules configuration in openconfig ACL format. Convert rules
to Config DB schema.
:param filename: File in openconfig ACL format
:return:
"""
self.yang_acl = AclLoader.parse_acl_json(filename)
self.convert_rules()
def convert_action(self, table_name, rule_idx, rule):
rule_props = {}
if rule.actions.config.forwarding_action == "ACCEPT":
if self.is_table_control_plane(table_name):
rule_props[AclAction.PACKET] = PacketAction.ACCEPT
elif self.is_table_mirror(table_name):
session_name = self.get_session_name()
if not session_name:
raise AclLoaderException(
"Mirroring session does not exist")
if self.mirror_stage == Stage.INGRESS:
mirror_action = AclAction.MIRROR_INGRESS
elif self.mirror_stage == Stage.EGRESS:
mirror_action = AclAction.MIRROR_EGRESS
else:
raise AclLoaderException(
"Invalid mirror stage passed {}".format(
self.mirror_stage))
rule_props[mirror_action] = session_name
else:
rule_props[AclAction.PACKET] = PacketAction.FORWARD
elif rule.actions.config.forwarding_action == "DROP":
rule_props[AclAction.PACKET] = PacketAction.DROP
elif rule.actions.config.forwarding_action == "REJECT":
rule_props[AclAction.PACKET] = PacketAction.DROP
else:
raise AclLoaderException(
"Unknown rule action {} in table {}, rule {}".format(
rule.actions.config.forwarding_action, table_name,
rule_idx))
if not self.validate_actions(table_name, rule_props):
raise AclLoaderException(
"Rule action {} is not supported in table {}, rule {}".format(
rule.actions.config.forwarding_action, table_name,
rule_idx))
return rule_props
def validate_actions(self, table_name, action_props):
if self.is_table_control_plane(table_name):
return True
action_count = len(action_props)
if table_name not in self.tables_db_info:
raise AclLoaderException(
"Table {} does not exist".format(table_name))
stage = self.tables_db_info[table_name].get("stage", Stage.INGRESS)
# check if per npu state db is there then read using first state db
# else read from global statedb
if self.per_npu_statedb:
# For multi-npu we will read using anyone statedb connector for front asic namespace.
# Same information should be there in all state DB's
# as it is static information about switch capability
namespace_statedb = list(self.per_npu_statedb.values())[0]
capability = namespace_statedb.get_all(
self.statedb.STATE_DB,
"{}|switch".format(self.SWITCH_CAPABILITY_TABLE))
else:
capability = self.statedb.get_all(
self.statedb.STATE_DB,
"{}|switch".format(self.SWITCH_CAPABILITY_TABLE))
for action_key in dict(action_props):
key = "{}|{}".format(self.ACL_ACTIONS_CAPABILITY_FIELD,
stage.upper())
if key not in capability:
del action_props[action_key]
continue
values = capability[key].split(",")
if action_key.upper() not in values:
del action_props[action_key]
continue
if action_key == AclAction.PACKET:
# Check if action_value is supported
action_value = action_props[action_key]
key = "{}|{}".format(self.ACL_ACTION_CAPABILITY_FIELD,
action_key.upper())
if key not in capability:
del action_props[action_key]
continue
if action_value not in capability[key]:
del action_props[action_key]
continue
return action_count == len(action_props)
def convert_l2(self, table_name, rule_idx, rule):
rule_props = {}
if rule.l2.config.ethertype:
if rule.l2.config.ethertype in self.ethertype_map:
rule_props["ETHER_TYPE"] = self.ethertype_map[
rule.l2.config.ethertype]
else:
try:
rule_props["ETHER_TYPE"] = int(rule.l2.config.ethertype)
except Exception as e:
raise AclLoaderException(
"Failed to convert ethertype %s; table %s rule %s; exception=%s"
% (rule.l2.config.ethertype, table_name, rule_idx,
str(e)))
if rule.l2.config.vlan_id != "" and rule.l2.config.vlan_id != "null":
vlan_id = rule.l2.config.vlan_id
if vlan_id <= 0 or vlan_id >= 4096:
raise AclLoaderException(
"VLAN ID %d is out of bounds (0, 4096)" % (vlan_id))
rule_props["VLAN_ID"] = vlan_id
return rule_props
def convert_ip(self, table_name, rule_idx, rule):
rule_props = {}
# FIXME: 0 is a valid protocol number, but openconfig seems to use it as a default value,
# so there isn't currently a good way to check if the user defined proto=0 or not.
if rule.ip.config.protocol:
if rule.ip.config.protocol in self.ip_protocol_map:
# Special case: ICMP has different protocol numbers for IPv4 and IPv6, so if we receive
# "IP_ICMP" we need to pick the correct protocol number for the IP version
if rule.ip.config.protocol == "IP_ICMP" and self.is_table_ipv6(
table_name):
rule_props["IP_PROTOCOL"] = self.ip_protocol_map[
"IP_ICMPV6"]
else:
rule_props["IP_PROTOCOL"] = self.ip_protocol_map[
rule.ip.config.protocol]
else:
try:
int(rule.ip.config.protocol)
except:
raise AclLoaderException(
"Unknown rule protocol %s in table %s, rule %d!" %
(rule.ip.config.protocol, table_name, rule_idx))
rule_props["IP_PROTOCOL"] = rule.ip.config.protocol
if rule.ip.config.source_ip_address:
source_ip_address = rule.ip.config.source_ip_address
if ipaddress.ip_network(source_ip_address).version == 4:
rule_props["SRC_IP"] = source_ip_address
else:
rule_props["SRC_IPV6"] = source_ip_address
if rule.ip.config.destination_ip_address:
destination_ip_address = rule.ip.config.destination_ip_address
if ipaddress.ip_network(destination_ip_address).version == 4:
rule_props["DST_IP"] = destination_ip_address
else:
rule_props["DST_IPV6"] = destination_ip_address
# NOTE: DSCP is available only for MIRROR table
if self.is_table_mirror(table_name):
if rule.ip.config.dscp:
rule_props["DSCP"] = rule.ip.config.dscp
return rule_props
def convert_icmp(self, table_name, rule_idx, rule):
rule_props = {}
is_table_v6 = self.is_table_ipv6(table_name)
type_key = "ICMPV6_TYPE" if is_table_v6 else "ICMP_TYPE"
code_key = "ICMPV6_CODE" if is_table_v6 else "ICMP_CODE"
if rule.icmp.config.type != "" and rule.icmp.config.type != "null":
icmp_type = rule.icmp.config.type
if icmp_type < 0 or icmp_type > 255:
raise AclLoaderException(
"ICMP type %d is out of bounds [0, 255]" % (icmp_type))
rule_props[type_key] = icmp_type
if rule.icmp.config.code != "" and rule.icmp.config.code != "null":
icmp_code = rule.icmp.config.code
if icmp_code < 0 or icmp_code > 255:
raise AclLoaderException(
"ICMP code %d is out of bounds [0, 255]" % (icmp_code))
rule_props[code_key] = icmp_code
return rule_props
def convert_port(self, port):
"""
Convert port field format from openconfig ACL to Config DB schema
:param port: String, ACL port number or range in openconfig format
:return: Tuple, first value is converted port string,
second value is boolean, True if value is a port range, False
if it is a single port value
"""
# OpenConfig port range is of the format "####..####", whereas
# Config DB format is "####-####"
if ".." in port:
return port.replace("..", "-"), True
else:
return port, False
def convert_transport(self, table_name, rule_idx, rule):
rule_props = {}
if rule.transport.config.source_port:
port, is_range = self.convert_port(
str(rule.transport.config.source_port))
rule_props[
"L4_SRC_PORT_RANGE" if is_range else "L4_SRC_PORT"] = port
if rule.transport.config.destination_port:
port, is_range = self.convert_port(
str(rule.transport.config.destination_port))
rule_props[
"L4_DST_PORT_RANGE" if is_range else "L4_DST_PORT"] = port
tcp_flags = 0x00
for flag in rule.transport.config.tcp_flags:
if flag == "TCP_FIN":
tcp_flags |= 0x01
if flag == "TCP_SYN":
tcp_flags |= 0x02
if flag == "TCP_RST":
tcp_flags |= 0x04
if flag == "TCP_PSH":
tcp_flags |= 0x08
if flag == "TCP_ACK":
tcp_flags |= 0x10
if flag == "TCP_URG":
tcp_flags |= 0x20
if flag == "TCP_ECE":
tcp_flags |= 0x40
if flag == "TCP_CWR":
tcp_flags |= 0x80
if tcp_flags:
rule_props["TCP_FLAGS"] = '0x{:02x}/0x{:02x}'.format(
tcp_flags, tcp_flags)
return rule_props
def convert_input_interface(self, table_name, rule_idx, rule):
rule_props = {}
if rule.input_interface.interface_ref.config.interface:
rule_props[
"IN_PORTS"] = rule.input_interface.interface_ref.config.interface
return rule_props
def convert_rule_to_db_schema(self, table_name, rule):
"""
Convert rules format from openconfig ACL to Config DB schema
:param table_name: ACL table name to which rule belong
:param rule: ACL rule in openconfig format
:return: dict with Config DB schema
"""
rule_idx = int(rule.config.sequence_id)
rule_props = {}
rule_data = {(table_name, "RULE_" + str(rule_idx)): rule_props}
rule_props["PRIORITY"] = str(self.max_priority - rule_idx)
deep_update(rule_props, self.convert_action(table_name, rule_idx,
rule))
deep_update(rule_props, self.convert_l2(table_name, rule_idx, rule))
deep_update(rule_props, self.convert_ip(table_name, rule_idx, rule))
deep_update(rule_props, self.convert_icmp(table_name, rule_idx, rule))
deep_update(rule_props,
self.convert_transport(table_name, rule_idx, rule))
deep_update(rule_props,
self.convert_input_interface(table_name, rule_idx, rule))
return rule_data
def deny_rule(self, table_name):
"""
Create default deny rule in Config DB format
:param table_name: ACL table name to which rule belong
:return: dict with Config DB schema
"""
rule_props = {}
rule_data = {(table_name, "DEFAULT_RULE"): rule_props}
rule_props["PRIORITY"] = str(self.min_priority)
rule_props["PACKET_ACTION"] = "DROP"
if 'v6' in table_name.lower():
rule_props[
"IP_TYPE"] = "IPV6ANY" # ETHERTYPE is not supported for DATAACLV6
else:
rule_props["ETHER_TYPE"] = str(
self.ethertype_map["ETHERTYPE_IPV4"])
return rule_data
def convert_rules(self):
"""
Convert rules in openconfig ACL format to Config DB schema
:return:
"""
for acl_set_name in self.yang_acl.acl.acl_sets.acl_set:
table_name = acl_set_name.replace(" ", "_").replace("-",
"_").upper()
acl_set = self.yang_acl.acl.acl_sets.acl_set[acl_set_name]
if not self.is_table_valid(table_name):
warning("%s table does not exist" % (table_name))
continue
if self.current_table is not None and self.current_table != table_name:
continue
for acl_entry_name in acl_set.acl_entries.acl_entry:
acl_entry = acl_set.acl_entries.acl_entry[acl_entry_name]
try:
rule = self.convert_rule_to_db_schema(
table_name, acl_entry)
deep_update(self.rules_info, rule)
except AclLoaderException as ex:
error("Error processing rule %s: %s. Skipped." %
(acl_entry_name, ex))
if not self.is_table_mirror(table_name):
deep_update(self.rules_info, self.deny_rule(table_name))
def full_update(self):
"""
Perform full update of ACL rules configuration. All existing rules
will be removed. New rules loaded from file will be installed. If
the current_table is not empty, only rules within that table will
be removed and new rules in that table will be installed.
:return:
"""
for key in self.rules_db_info:
if self.current_table is None or self.current_table == key[0]:
self.configdb.mod_entry(self.ACL_RULE, key, None)
# Program for per front asic namespace also if present
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_entry(self.ACL_RULE, key, None)
self.configdb.mod_config({self.ACL_RULE: self.rules_info})
# Program for per front asic namespace also if present
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_config({self.ACL_RULE: self.rules_info})
def incremental_update(self):
"""
Perform incremental ACL rules configuration update. Get existing rules from
Config DB. Compare with rules specified in file and perform corresponding
modifications.
:return:
"""
# TODO: Until we test ASIC behavior, we cannot assume that we can insert
# dataplane ACLs and shift existing ACLs. Therefore, we perform a full
# update on dataplane ACLs, and only perform an incremental update on
# control plane ACLs.
new_rules = set(self.rules_info.keys())
new_dataplane_rules = set()
new_controlplane_rules = set()
current_rules = set(self.rules_db_info.keys())
current_dataplane_rules = set()
current_controlplane_rules = set()
for key in new_rules:
table_name = key[0]
if self.tables_db_info[table_name]['type'].upper(
) == self.ACL_TABLE_TYPE_CTRLPLANE:
new_controlplane_rules.add(key)
else:
new_dataplane_rules.add(key)
for key in current_rules:
table_name = key[0]
if self.tables_db_info[table_name]['type'].upper(
) == self.ACL_TABLE_TYPE_CTRLPLANE:
current_controlplane_rules.add(key)
else:
current_dataplane_rules.add(key)
# Remove all existing dataplane rules
for key in current_dataplane_rules:
self.configdb.mod_entry(self.ACL_RULE, key, None)
# Program for per-asic namespace also if present
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_entry(self.ACL_RULE, key, None)
# Add all new dataplane rules
for key in new_dataplane_rules:
self.configdb.mod_entry(self.ACL_RULE, key, self.rules_info[key])
# Program for per-asic namespace corresponding to front asic also if present.
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_entry(self.ACL_RULE, key,
self.rules_info[key])
added_controlplane_rules = new_controlplane_rules.difference(
current_controlplane_rules)
removed_controlplane_rules = current_controlplane_rules.difference(
new_controlplane_rules)
existing_controlplane_rules = new_rules.intersection(
current_controlplane_rules)
for key in added_controlplane_rules:
self.configdb.mod_entry(self.ACL_RULE, key, self.rules_info[key])
# Program for per-asic namespace corresponding to front asic also if present.
# For control plane ACL it's not needed but to keep all db in sync program everywhere
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_entry(self.ACL_RULE, key,
self.rules_info[key])
for key in removed_controlplane_rules:
self.configdb.mod_entry(self.ACL_RULE, key, None)
# Program for per-asic namespace corresponding to front asic also if present.
# For control plane ACL it's not needed but to keep all db in sync program everywhere
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.mod_entry(self.ACL_RULE, key, None)
for key in existing_controlplane_rules:
if cmp(self.rules_info[key], self.rules_db_info[key]) != 0:
self.configdb.set_entry(self.ACL_RULE, key,
self.rules_info[key])
# Program for per-asic namespace corresponding to front asic also if present.
# For control plane ACL it's not needed but to keep all db in sync program everywhere
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.set_entry(self.ACL_RULE, key,
self.rules_info[key])
def delete(self, table=None, rule=None):
"""
:param table:
:param rule:
:return:
"""
for key in self.rules_db_info:
if not table or table == key[0]:
if not rule or rule == key[1]:
self.configdb.set_entry(self.ACL_RULE, key, None)
# Program for per-asic namespace corresponding to front asic also if present.
for namespace_configdb in self.per_npu_configdb.values():
namespace_configdb.set_entry(self.ACL_RULE, key, None)
def show_table(self, table_name):
"""
Show ACL table configuration.
:param table_name: Optional. ACL table name. Filter tables by specified name.
:return:
"""
header = ("Name", "Type", "Binding", "Description", "Stage")
data = []
for key, val in self.get_tables_db_info().items():
if table_name and key != table_name:
continue
stage = val.get("stage", Stage.INGRESS).lower()
if val["type"] == AclLoader.ACL_TABLE_TYPE_CTRLPLANE:
services = natsorted(val["services"])
data.append(
[key, val["type"], services[0], val["policy_desc"], stage])
if len(services) > 1:
for service in services[1:]:
data.append(["", "", service, "", ""])
else:
if not val["ports"]:
data.append(
[key, val["type"], "", val["policy_desc"], stage])
else:
ports = natsorted(val["ports"])
data.append([
key, val["type"], ports[0], val["policy_desc"], stage
])
if len(ports) > 1:
for port in ports[1:]:
data.append(["", "", port, "", ""])
print(
tabulate.tabulate(data,
headers=header,
tablefmt="simple",
missingval=""))
def show_session(self, session_name):
"""
Show mirror session configuration.
:param session_name: Optional. Mirror session name. Filter sessions by specified name.
:return:
"""
erspan_header = ("Name", "Status", "SRC IP", "DST IP", "GRE", "DSCP",
"TTL", "Queue", "Policer", "Monitor Port", "SRC Port",
"Direction")
span_header = ("Name", "Status", "DST Port", "SRC Port", "Direction",
"Queue", "Policer")
erspan_data = []
span_data = []
for key, val in self.get_sessions_db_info().items():
if session_name and key != session_name:
continue
if val.get("type") == "SPAN":
span_data.append([
key,
val.get("status", ""),
val.get("dst_port", ""),
val.get("src_port", ""),
val.get("direction", "").lower(),
val.get("queue", ""),
val.get("policer", "")
])
else:
erspan_data.append([
key,
val.get("status", ""),
val.get("src_ip", ""),
val.get("dst_ip", ""),
val.get("gre_type", ""),
val.get("dscp", ""),
val.get("ttl", ""),
val.get("queue", ""),
val.get("policer", ""),
val.get("monitor_port", ""),
val.get("src_port", ""),
val.get("direction", "").lower()
])
print("ERSPAN Sessions")
print(
tabulate.tabulate(erspan_data,
headers=erspan_header,
tablefmt="simple",
missingval=""))
print("\nSPAN Sessions")
print(
tabulate.tabulate(span_data,
headers=span_header,
tablefmt="simple",
missingval=""))
def show_policer(self, policer_name):
"""
Show policer configuration.
:param policer_name: Optional. Policer name. Filter policers by specified name.
:return:
"""
header = ("Name", "Type", "Mode", "CIR", "CBS")
data = []
for key, val in self.get_policers_db_info().items():
if policer_name and key != policer_name:
continue
data.append([
key, val["meter_type"], val["mode"],
val.get("cir", ""),
val.get("cbs", "")
])
print(
tabulate.tabulate(data,
headers=header,
tablefmt="simple",
missingval=""))
def show_rule(self, table_name, rule_id):
"""
Show ACL rules configuration.
:param table_name: Optional. ACL table name. Filter rules by specified table name.
:param rule_id: Optional. ACL rule name. Filter rule by specified rule name.
:return:
"""
header = ("Table", "Rule", "Priority", "Action", "Match")
def pop_priority(val):
priority = "N/A"
for key in dict(val):
if (key.upper() == "PRIORITY"):
priority = val.pop(key)
return priority
return priority
def pop_action(val):
action = ""
for key in dict(val):
key = key.upper()
if key == AclAction.PACKET:
action = val.pop(key)
elif key == AclAction.REDIRECT:
action = "REDIRECT: {}".format(val.pop(key))
elif key in (AclAction.MIRROR, AclAction.MIRROR_INGRESS):
action = "MIRROR INGRESS: {}".format(val.pop(key))
elif key == AclAction.MIRROR_EGRESS:
action = "MIRROR EGRESS: {}".format(val.pop(key))
else:
continue
return action
def pop_matches(val):
matches = list(sorted(["%s: %s" % (k, val[k]) for k in val]))
if len(matches) == 0:
matches.append("N/A")
return matches
raw_data = []
for (tname, rid), val in self.get_rules_db_info().items():
if table_name and table_name != tname:
continue
if rule_id and rule_id != rid:
continue
priority = pop_priority(val)
action = pop_action(val)
matches = pop_matches(val)
rule_data = [[tname, rid, priority, action, matches[0]]]
if len(matches) > 1:
for m in matches[1:]:
rule_data.append(["", "", "", "", m])
raw_data.append([priority, rule_data])
raw_data.sort(key=lambda x: x[0], reverse=True)
data = []
for _, d in raw_data:
data += d
print(
tabulate.tabulate(data,
headers=header,
tablefmt="simple",
missingval=""))